Class / Patent application number | Description | Number of patent applications / Date published |
333212000 | Including directly coupled resonant sections | 25 |
20080246561 | Multiband Filter - A multiband filtering apparatus ( | 10-09-2008 |
20080297284 | DUAL-MODE FILTER AND TUNING METHOD OF THE SAME - A dual-mode filter capable of providing a high degree of design freedom and/or tunability is disclosed. The dual-mode filter includes a ring resonator; an input feeder and an output feeder disposed substantially orthogonal with respect to each other and with respect to the ring resonator so as to be electromagnetically coupled to the ring resonator; and a dual-mode generating line disposed inside the ring resonator in a manner so that the dual-mode generating line does not overlap with a line extending from the input feeder or a line extending from the output feeder. | 12-04-2008 |
20090002104 | VERTICAL COUPLING STRUCTURE FOR NON-ADJACENT RESONATORS - A vertical coupling structure for non-adjacent resonators is provided to have a first and a second resonators, a dielectric material layer, a first and a second high-frequency transmission lines and at least one via pole. The first and the second resonators respectively have a first and a second opposite metal surfaces. The dielectric material layer is disposed between the opposite second metal surfaces of the first and the second resonators. The first and the second transmission lines are respectively arranged at sides of the first metal surfaces of the first resonator and the second resonator. The first high-frequency transmission line is vertically connected to the second high-frequency transmission line by the via pole. | 01-01-2009 |
20090015352 | FILTER ASSEMBLIES AND COMMUNICATION SYSTEMS BASED THEREON - A filter assembly ( | 01-15-2009 |
20090039984 | Electromagnetic bandgap structure and printed circuit board - An electromagnetic bandgap structure and a printed circuit board having the electromagnetic bandgap that intercepts the transfer of a signal ranging a frequency band are disclosed. The electromagnetic bandgap structure includes a metal layer; a dielectric layer, stacked on the metal layer; at least two metal plates, stacked on the same planar surface of the dielectric layer; and a stitching via, connecting the adjacent metal plates. The stitching via passes through the dielectric layer, and a part of the stitching via is placed on the same planar surface of the metal layer. With the present invention, the electromagnetic bandgap can decrease the noise of a particular frequency by having a compact size and a low bandgap frequency. | 02-12-2009 |
20090243762 | WAVEGUIDE FILTER - A waveguide bandpass filter for use in microwave and millimeter-wave satellite communications equipment is presented. The filter is based on a substrate integrated waveguide (SIW) having several cascaded oversized SIW cavities. The filter is implemented in a printed circuit board (PCB) or a ceramic substrate using arrays of standard metalized via holes to define the perimeters of the SIW cavities. Transmission lines of a microstrip line, a stripline or coplanar waveguide are used as input and output feeds. The transmission lines have coupling slots for improved stopband performance. The filter can be easily integrated with planar circuits for microwave and millimeter wave applications. | 10-01-2009 |
20100007446 | FILTER DEVICE AND METHOD FOR MANUFACTURING THE SAME - A filter device having a frame made of plated steel sheet generates a smaller insertion loss and is excellent in productivity. Resonant elements are shaped into a cylindrical form by bending the steel sheet, whose both sides are plated, before they are placed in a filter housing. A gap formed on a lateral face of the resonant element is brazed with solder, and an outer plated face of the resonant element is brazed with solder to an inner plated face of the frame. | 01-14-2010 |
20100102902 | METHOD FOR MANUFACTURING RF DEVICE AND RF DEVICE MANUFACTURED BY THE SAME - Disclose is a method for manufacturing an RF device. The method comprises the steps of (a) forming a metal sheet where interior structure of the RF device is formed; (b) attaching a plastic material housing to the formed metal sheet; and (c) performing silver plating on the RF device on which the plastic material housing is attached. | 04-29-2010 |
20100117768 | VERTICAL COUPLING STRUCTURE FOR NON-ADJACENT RESONATORS - A vertical coupling structure for non-adjacent resonators is provided. The vertical coupling structure has a first resonator and a second resonator. At least one side of the first resonator is formed as a first bent extension structure, and the first bent extension structure includes a slot. The second resonator is not adjacent to the first resonator, and the side of the second resonator opposite to the first bent extension structure of the first resonator further includes a slot, such that the two sides are electrically connected. | 05-13-2010 |
20100156568 | MICROWAVE FILTER BASED ON A NOVEL COMBINATION OF SINGLE-MODE AND DUAL-MODE CAVITIES - A microwave filter based on the combination of dual-mode and single-mode cavities. The single-mode cavity symmetrically extends from the dual-mode cavity with respect to the symmetric reference plane to form the so called extended doublet network. The microwave filter in extended-doublet configuration exhibit high frequency selectivity since it has a pair of finite frequency transmission zeros on the upper and lower stopband. The design concept can also be applied to build higher order filters. | 06-24-2010 |
20110012697 | ELECTRO-MAGNETIC BAND-GAP STRUCTURE, METHOD FOR MANUFACTURING THE SAME, FILTER ELEMENT AND PRINTED CIRCUIT BOARD HAVING EMBEDDED FILTER ELEMENT - An electromagnetic bandgap structure EBG includes a rigid substrate, a first conductive plane provided on the rigid substrate, a dielectric layer provided on the first conductive plane, and a plurality of conductor patches arrayed in a two-dimensional regular pattern on the dielectric layer. The electromagnetic bandgap structure also includes an interlayer insulation film provided on top of the conductor patches, and a second conductive plane provided on the interlayer insulation film. The conductor patches and the second conductive plane are interconnected by a plurality of conductors provided in extending through the bulk of the interlayer insulation film. | 01-20-2011 |
20110121918 | FILTER DEVICE AND METHOD FOR MANUFACTURING THE SAME - A filter device having a frame made of plated steel sheet generates a smaller insertion loss and is excellent in productivity. Resonant elements are shaped into a cylindrical form by bending the steel sheet, whose both sides are plated, before they are placed in a filter housing. A gap formed on a lateral face of each resonant element is brazed with solder, and an outer plated face of each resonant element is brazed with solder to an inner plated face of the frame. | 05-26-2011 |
20110121919 | FILTER DEVICE AND METHOD FOR MANUFACTURING THE SAME - A filter device having a frame made of plated steel sheet generates a smaller insertion loss and is excellent in productivity. Resonant elements are shaped into a cylindrical form by bending the steel sheet, whose both sides are plated, before they are placed in a filter housing. A gap formed on a lateral face of each resonant element is brazed with solder, and an outer plated face of each resonant element is brazed with solder to an inner plated face of the frame. | 05-26-2011 |
20120188029 | FILTER - A filter includes: a container; at least one barrier, an input device and an output device. The at least one barrier divide the space of the container into at least two resonant cavities. Each resonant cavity has a harmonic oscillator disposed therein. The harmonic oscillators includes a supporter and a carbon nanotube structure disposed on a surface of the supporter. | 07-26-2012 |
20120229233 | Dielectric Waveguide Filter | 09-13-2012 |
20120286901 | Dielectric waveguide filter with direct coupling and alternative cross-coupling - A dielectric waveguide filter comprising a block of dielectric material including a plurality of resonators defined by a plurality of slots defined in the block of dielectric material. The resonators are arranged on the block of dielectric material in one or more rows and columns. First and second RF signal input/output electrodes are defined on the block of dielectric material. A first direct RF signal transmission path for the transmission of an RF signal is defined by the first and second RF signal input/output electrodes and the plurality of resonators. In one embodiment, internal windows define a first direct RF signal transmission means and additional RF signal transmission means define alternate or cross-coupling paths for the transmission of the RF signal from resonators in one column to resonators in another column. In one embodiment, the filter is comprised of two separate blocks of dielectric material which have been coupled together. | 11-15-2012 |
20130154772 | WAVEGUIDE BAND-PASS FILTER WITH PSEUDO-ELLIPTIC RESPONSE - A waveguide band-pass filter is disclosed comprising: an input/output gate for a signal; a first inductive discontinuity coupling device; a second inductive discontinuity coupling device and a first waveguide resonator segment coupled to said input/output gate and interposed between the first and the second coupling devices. At least one of the first and the second coupling devices includes at least a resonant coupling structure which extends in the waveguide with a reduced height relative to a height of the first resonator segment and it is shaped for inputting a zero in a transmission frequency response of the filter. | 06-20-2013 |
20130229244 | SYSTEM AND METHOD FOR PROVIDING AN INTERCHANGEABLE DIELECTRIC FILTER WITHIN A WAVEGUIDE - A system including a first dielectric filter including a plurality of resonators, a second dielectric filter including a plurality of resonators, and a hollow waveguide configured to receive the first dielectric filter or the second dielectric filter by separating the hollow waveguide into at least a first part and a second part. A width of the plurality of resonators matches a width of a groove within the hollow waveguide to allow insertion of the first dielectric filter or the second dielectric filter into the hollow waveguide where sides of the resonators are in contact with inner sides of the groove of the hollow waveguide. Another embodiment of a system and a method are also disclosed. | 09-05-2013 |
20140077900 | Dielectric Waveguide Filter with Direct Coupling and Alternative Cross-Coupling - A dielectric waveguide filter comprising a block of dielectric material covered with an exterior layer of conductive material. A plurality of stacked resonators are defined in the block of dielectric material by one or more slots in the block of dielectric material and an interior layer of conductive material that separates the stacked resonators. First and second RF signal transmission windows in the interior layer of conductive material provide for both direct and cross-coupling RF signal transmission between the stacked resonators. In one embodiment, the waveguide filter is comprised of separate blocks of dielectric material each covered with an exterior layer of conductive material, each including one or more slots defining a plurality of resonators, and coupled together in a stacked relationship. | 03-20-2014 |
20140266514 | Dielectric Waveguide Filter with Direct Coupling and Alternative Cross-Coupling - A dielectric waveguide filter which, in one embodiment, is comprised of a plurality of monoblocks coupled together in a side-by-side relationship. In one embodiment, the waveguide filter includes two end monoblocks and two interior monoblocks each defining two resonators. First and second RF signal input/output electrodes are defined on the two end monoblocks. In one embodiment, a direct RF signal transmission path is defined in part by the combination of the resonators, RF signal transmission bridges on each of the monoblocks that interconnect the resonators on each of the monoblocks, and RF signal transmission windows between and interconnecting the resonators of adjacent monoblocks. In one embodiment, alternate or cross-coupling RF signal transmission paths are defined by external RF signal transmission lines that extend between adjacent monoblocks. | 09-18-2014 |
20150084720 | Dielectric Waveguide Filter with Direct Coupling and Alternative Cross-Coupling - A waveguide filter comprising a base block of dielectric material defining at least first and second resonators and a bridge block seated on top of the base block and defining at least a third resonator. In one embodiment, the base block comprises first and second base blocks that have been coupled together in an end to end relationship. An external transmission line or an interior RF signal transmission window or an RF signal transmission bridge provides a cross-coupling RF signal transmission path between the first and second resonators. At least first and second interior RF signal transmission windows provide a direct RF signal transmission path between the first and third resonators and the second and third resonators respectively. | 03-26-2015 |
20150091672 | MULTI RESONATOR NON-ADJACENT COUPLING - A coupling is provided for coupling non-adjacent resonators of a radio frequency filter. The coupling joins together non-adjacent resonators with a metal strip. The metal strip is physically connected to but electrically isolated from resonators located between the connected non-adjacent resonators. The metal strips include tabs the length of which may be varied. The coupling works with different resonator configurations including horizontally aligned resonators. The coupling allows for the jumping of an even number of resonators can produce zeros at high and low bands. A single coupling of this configuration enables two negative couplings. | 04-02-2015 |
20150364807 | Dielectric Resonator, Assembly Method Therefor, and Dielectric Filter - A dielectric resonator includes: two dielectric resonant cylinders and a metal cavity, wherein the dielectric resonant cylinders are located within the metal cavity; and it also includes: a fastener and a connector, wherein bottoms of the dielectric resonant cylinders are connected via the connector to form a U-shaped structure, and the connector is fixed on the metal cavity via the fastener. With the dielectric resonator of the embodiments of the present invention, a good close contact between the dielectric resonant cylinders and the metal cavity can be guaranteed, thereby improving the resonant performance of the dielectric resonator. | 12-17-2015 |
20150372363 | ISOLATION DEVICES THAT PASS COUPLER OUTPUT SIGNALS - Various embodiments are directed to isolation devices, systems, methods and various means, for isolating ignition causing signals and/or explosions from hazardous or explosive environments. | 12-24-2015 |
20160380322 | Dielectric Waveguide Filter with Cross-Coupling RF Signal Transmission Structure - A dielectric wave guide filter comprising a block of dielectric material defining a plurality of resonators separated by an interior layer of conductive material. A first direct path for the transmission of an RF signal is defined by the plurality of resonators. An external substrate is coupled to an exterior surface of the block of dielectric material and defines a pair of RF signal input/output transmission vias filled with a conductive material and an interior RF signal transmission line extending between and interconnecting the pair or RF signal input/output transmission vias and providing an indirect cross-coupling path for the RF signal between two of the resonators separated by the interior layer of conductive material. | 12-29-2016 |